Modeling musculoskeletal systems with branching structures: A case study with the auxiliary tendon of the caudofemoralis longus muscle in crocodilians

Kaito Kimura; Takahiro Goto; Kazuki Ito; Tetsuya Kinugasa; Kentaro Chiba; Keisuke Naniwa; Daisuke Nakanishi; Koichi Osuka; Yasuhiro Sugimoto

doi:10.1587/nolta.16.651

Special Issue on Recent Progress in Nonlinear Theory and Its Applications

Modeling musculoskeletal systems with branching structures: A case study with the auxiliary tendon of the caudofemoralis longus muscle in crocodilians

Kaito Kimura, Takahiro Goto, Kazuki Ito, Tetsuya Kinugasa, Kentaro Chiba, Keisuke Naniwa, Daisuke Nakanishi, Koichi Osuka, Yasuhiro Sugimoto

著者情報

キーワード: biomechanics, musculoskeletal system, dynamical systems modeling, crocodilians, branching structures

ジャーナルオープンアクセス

2025 年 16 巻 3 号 p. 651-668

DOI https://doi.org/10.1587/nolta.16.651

詳細

抄録

The branching in the musculotendinous structures is crucial to control complex, nonlinear musculoskeletal systems in vertebrate bodies. Although common, their functional impact remains unclear. Here, we present a dynamical model of musculoskeletal networks that explicitly incorporates branching points as mass points, representing geometric constraints and internal force distribution. Applying this model to the crocodilian hindlimb with branching musculotendinous structures, we validate results against robotic and anatomical studies. We find that branching reduces required muscle force, enhances joint coordination, and enables stable standing and propulsion with minimal input. These insights can guide biomechanical research and bio-inspired robotic designs.

責任著者(Corresponding author)

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